文章基本信息

标题：Profiles of Global Gene Expression in Ionizing-Radiation–Damaged Human Diploid Fibroblasts Reveal Synchronization behind the G1 Checkpoint in a G0-like State of Quiescence
作者：Tong Zhou ; Jeff W. Chou ; Dennis A. Simpson 等
期刊名称：Environmental Health Perspectives
印刷版ISSN：0091-6765
电子版ISSN：1552-9924
出版年度：2006
卷号：114
期号：4
页码：553-559
DOI：10.1289/ehp.8026
语种：English
出版社：OCR Subscription Services Inc
摘要：Cell cycle arrest and stereotypic transcriptional responses to DNA damage induced by ionizing radiation (IR) were quantified in telomerase-expressing human diploid fibroblasts. Analysis of cytotoxicity demonstrated that 1.5 Gy IR inactivated colony formation by 40–45% in three fibroblast lines; this dose was used in all subsequent analyses. Fibroblasts exhibited > 90% arrest of progression from G₂ to M at 2 hr post-IR and a similarly severe arrest of progression from G₁ to S at 6 and 12 hr post-IR. Normal rates of DNA synthesis and mitosis 6 and 12 hr post-IR caused the S and M compartments to empty by > 70% at 24 hr. Global gene expression was analyzed in IR-treated cells. A microarray analysis algorithm, EPIG, identified nine IR-responsive patterns of gene expression that were common to the three fibroblast lines, including a dominant p53-dependent G₁ checkpoint response. Many p53 target genes, such as CDKN1A , GADD45 , BTG2 , and PLK3 , were significantly up-regulated at 2 hr post-IR. Many genes whose expression is regulated by E2F family transcription factors, including CDK2 , CCNE1 , CDC6 , CDC2 , MCM2 , were significantly down-regulated at 24 hr post-IR. Numerous genes that participate in DNA metabolism were also markedly repressed in arrested fibroblasts apparently as a result of cell synchronization behind the G₁ checkpoint. However, cluster and principal component analyses of gene expression revealed a profile 24 hr post-IR with similarity to that of G₀ growth quiescence. The results reveal a highly stereotypic pattern of response to IR in human diploid fibroblasts that reflects primarily synchronization behind the G₁ checkpoint but with prominent induction of additional markers of G₀ quiescence such as GAS1 .
关键词：cell cycle checkpoints; DNA damage; gene expression; human fibroblasts; ionizing radiation; microarray